IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0241176
(2008-09-30)
|
등록번호 |
US-7804215
(2010-10-21)
|
발명자
/ 주소 |
- Hemmelmann, Jan Erich
- Waszak, Michal Wolfgang
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
8 |
초록
▼
A magnetically geared machine having an integrated cooling concept is provided. The machine includes a rotor having an inner surface and an outer surface, a magnet assembly coupled to one of the inner or outer surfaces of the rotor, and a stator having a plurality of stator windings. The machine fur
A magnetically geared machine having an integrated cooling concept is provided. The machine includes a rotor having an inner surface and an outer surface, a magnet assembly coupled to one of the inner or outer surfaces of the rotor, and a stator having a plurality of stator windings. The machine further includes a magnetic flux modulator interposed between the rotor and the plurality of stator windings, where the flux modulator includes a plurality of magnetically conductive portions and a plurality of non-magnetically conductive portions placed alternately, where one or more of the plurality of non-magnetically conductive portions comprise a channel for a cooling fluid.
대표청구항
▼
The invention claimed is: 1. A magnetically geared machine having an integrated cooling concept, the machine comprising: a rotor having an inner surface and an outer surface; a magnet assembly coupled to one of the inner or outer surfaces of the rotor; a stator having a plurality of stator windings
The invention claimed is: 1. A magnetically geared machine having an integrated cooling concept, the machine comprising: a rotor having an inner surface and an outer surface; a magnet assembly coupled to one of the inner or outer surfaces of the rotor; a stator having a plurality of stator windings; and a magnetic flux modulator interposed between the rotor and the plurality of stator windings, wherein the flux modulator comprises a plurality of magnetically conductive portions and a plurality of non-magnetically conductive portions placed alternately, and wherein one or more of the plurality of non-magnetically conductive portions comprise a channel for a cooling fluid. 2. The magnetically geared machine of claim 1, wherein the cooling fluid comprises a liquid, or a gas, or both. 3. The magnetically geared machine of claim 1, wherein the cooling fluid comprises water, liquid nitrogen, liquid mercury, methanol, ethanol, oil, gaseous hydrogen, gaseous helium, gaseous nitrogen, gaseous oxygen, air, compressed air, or combinations thereof. 4. The magnetically geared machine of claim 1, wherein the one or more of the plurality of non-magnetically conductive portions comprise a plastic, a glass fiber, a ceramic material, a composite, a metal, or combinations thereof. 5. The magnetically geared machine of claim 1, wherein the channel comprises a bore, or a hole, or a hose, or combinations thereof. 6. The magnetically geared machine of claim 1, further comprising a filler layer disposed between the magnetic flux modulator and stator windings. 7. The magnetically geared machine of claim 6, wherein the filler layer comprises at least one channel for the cooling fluid. 8. The magnetically geared machine of claim 6, wherein the filler layer comprises a plastic, a glass fiber, a ceramic material, a composite, a metal, a resin, or combinations thereof. 9. The magnetically geared machine of claim 6, wherein the filler layer comprises an epoxy-based resin. 10. The magnetically geared machine of claim 1, wherein at least a portion of the filler layer comprises a sacrificial material. 11. The magnetically geared machine of claim 1, wherein the magnet assembly comprises a plurality of individual permanent magnets coupled to the rotor. 12. The magnetically geared machine of claim 1, wherein the magnet assembly comprises one or more permanent magnet blocks embedded in a non-magnetic layer. 13. The magnetically geared machine of claim 12, wherein the non-magnetic layer comprises fiber-enforced resin, or a plastic material, or both. 14. The magnetically geared machine of claim 1, comprising an air gap disposed between the stator windings and the flux modulator layer. 15. The magnetically geared machine of claim 1, comprising an air gap disposed between the magnet assembly and the flux modulator layer. 16. The magnetically geared machine of claim 1, wherein the flux modulator in part or as a whole is coupled to a frame supporting the stator. 17. The magnetically geared machine of claim 1, wherein the magnetic flux modulator is configured to transmit torque between a first magnetic field associated with the moveable rotor and a second magnetic field excited by the plurality of stationary stator windings. 18. The magnetically geared machine of claim 1, wherein the rotor is configured to rotate about an axis of rotation, and the stator is outwardly disposed from the axis of rotation with respect to the rotor. 19. The magnetically geared machine of claim 18, wherein the rotor comprises a high speed rotor with respect to a low speed variation of the second magnetic field associated with the stator windings. 20. The magnetically geared machine of claim 1, wherein the rotor is configured to move laterally in a linear electric machine configuration. 21. A magnetically geared machine having an integrated cooling concept, the machine comprising: a moveable rotor having a first magnetic field associated therewith; a magnet assembly coupled to the moveable rotor; a stator having a plurality of stationary stator windings; a magnetic flux modulator interposed between the moveable rotor and the plurality of stator windings, wherein the flux modulator is configured to provide a plurality of passageways proximate to a plurality of magnetically conductive portions of the flux modulator, and wherein at least one of the plurality of passageways comprises a cooling fluid. 22. A generator system, comprising: a generator coupled to a turbine; and a tower connected to the generator, the generator further comprising: a permanent magnet rotor coupled to the turbine, the rotor having a first magnetic field associated therewith; a stator configured with a plurality of stationary stator windings therein; and a magnetic flux modulator interposed between the moveable rotor and the stator windings, wherein the flux modulator comprises a plurality of magnetically conductive portions and a plurality of non-magnetically conductive portions placed alternately, wherein one or more of the plurality of non-magnetically conductive portions comprise a channel for a cooling fluid. 23. The generator system of claim 22, wherein the generator system is employed in a wind turbine, or a steam turbine. 24. A propulsion system, comprising: a propulsion motor configured to rotate a shaft; the propulsion motor comprising: a permanent magnet rotor coupled to the shaft, the rotor having a first magnetic field associated therewith; a stator configured with a plurality of stationary stator windings therein; and a magnetic flux modulator interposed between the moveable rotor and the stator windings, wherein the flux modulator comprises a plurality of magnetically conductive portions and a plurality of non-magnetically conductive portions placed alternately, wherein one or more of the plurality of non-magnetically conductive portions comprise a channel for a cooling fluid; a propeller coupled to the shaft. 25. The propulsion system of claim 24, wherein the propulsion system is employed in a vessel, or an aircraft.
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